Add to ORKGBoost converters have Non-Minimum Phase (NMP) characteristics, which makes the stable closed loop control design difficult. Based on the passive theory, this paper proposes to add a feed-forward loop in the conventional double loop closed loop to compensate the NMP effect. Therefore, the potential instability caused by NMP can be avoided. Such compensation is especially useful for DC microgrids applications where boost converters are widely used as interface converters. Two types of feed-forward gain are discussed and compared. The gain of K with high-pass filter is used eventually for integrating with conventional droop control because it does not change low frequency quiescent operation point. The stability of the proposed controller is a...
Direct-current (dc) microgrids interconnect dc loads, distributed renewable energy sources, and ener...
In DC microgrids, the operation of the constant power load (CPL) and its associated input filter is ...
In droop-controlled DC microgrids, parasitic resistances of long conductive lines introduce addition...
Boost converters have Non-Minimum Phase (NMP) characteristics, which makes the stable closed loop co...
This paper investigates the detailed elements of a DC microgrid that might cause instability, and pr...
International audienceThe current massive integration of constant power loads (CPLs) requires better...
This paper investigates the detailed elements of a DC microgrid that might cause instability, and pr...
The inner structural characteristics of non-minimum phase DC-DC converters pose a severe limitation ...
There are difficulties in analyzing the stability of microgrids since they are located on various ne...
This paper proposes a high-performance control strategy for dc–dc converters supplying combined load...
In this brief, a novel current-limiting droop controller for paralleled dc-dc boost converters loade...
Inductor current feedback (ICF) has been recently proposed to mitigate the adverse effect of the rig...
This paper deals with the design of a robust and decentralized passivity-based control scheme for re...
It is challenging to select the best control strategy to regulate the output voltage of a DC–DC boos...
This paper aims to present a robust passivity-based control (PBC) strategy to solve the instability ...
Direct-current (dc) microgrids interconnect dc loads, distributed renewable energy sources, and ener...
In DC microgrids, the operation of the constant power load (CPL) and its associated input filter is ...
In droop-controlled DC microgrids, parasitic resistances of long conductive lines introduce addition...
Boost converters have Non-Minimum Phase (NMP) characteristics, which makes the stable closed loop co...
This paper investigates the detailed elements of a DC microgrid that might cause instability, and pr...
International audienceThe current massive integration of constant power loads (CPLs) requires better...
This paper investigates the detailed elements of a DC microgrid that might cause instability, and pr...
The inner structural characteristics of non-minimum phase DC-DC converters pose a severe limitation ...
There are difficulties in analyzing the stability of microgrids since they are located on various ne...
This paper proposes a high-performance control strategy for dc–dc converters supplying combined load...
In this brief, a novel current-limiting droop controller for paralleled dc-dc boost converters loade...
Inductor current feedback (ICF) has been recently proposed to mitigate the adverse effect of the rig...
This paper deals with the design of a robust and decentralized passivity-based control scheme for re...
It is challenging to select the best control strategy to regulate the output voltage of a DC–DC boos...
This paper aims to present a robust passivity-based control (PBC) strategy to solve the instability ...
Direct-current (dc) microgrids interconnect dc loads, distributed renewable energy sources, and ener...
In DC microgrids, the operation of the constant power load (CPL) and its associated input filter is ...
In droop-controlled DC microgrids, parasitic resistances of long conductive lines introduce addition...